Motion of ions in a battery, or the motion of a charged particle in cyclotron; muscle contraction in tissue, the frog's leg twitch.
An example of a non-contact force of an electrical charge is the force of attraction or repulsion between two charged particles that are not touching each other, such as the force between two charged balloons held close to each other.
An example of gravitational force is the force that pulls objects towards the center of the Earth. This force is responsible for objects falling to the ground when dropped.
The strength of electrical force is measured in units of force called Newtons.
Comparable with what? You can compare the electrical force with other forces. For example, if you compare it with gravity, it turns out that both are inverse-square laws. While gravity acts on ANY mass, the electrical force only acts on electrically charged objects. And while gravity is always attractive, the electrical force can be both attractive and repulsive.
unbalanced forces cause acceleration, an object in freefall has gravity as an unbalanced force.
An example of a non-contact force of an electrical charge is the force of attraction or repulsion between two charged particles that are not touching each other, such as the force between two charged balloons held close to each other.
conductor-copper insulator-rubber
The pelvic Thrust
Volterage uses electric force because they do it together And they mone $^$^$%^$&%$^GFHTR B%^&#%7
An example of gravitational force is the force that pulls objects towards the center of the Earth. This force is responsible for objects falling to the ground when dropped.
A bat hitting a baseball is an example of an action force.
friction :)
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The strength of electrical force is measured in units of force called Newtons.
The electrical force is known a electromotive force and is measured in Volts.
No. Electrical force is F = q1q2zc/r2
Comparable with what? You can compare the electrical force with other forces. For example, if you compare it with gravity, it turns out that both are inverse-square laws. While gravity acts on ANY mass, the electrical force only acts on electrically charged objects. And while gravity is always attractive, the electrical force can be both attractive and repulsive.